Mn, Co and Ti doped Nanocages (Mn2–C48, Co2–Si52 and Ti2–B30P30) and Mn, Co and Ti doped C-, Si- and BP-Nanotubes (5, 0), (6, 0) and (7, 0) as effective catalysts for CO2 reduction reaction
Key Points
The study reveals that Mn, Co, and Ti doped nanocages and nanotubes effectively catalyze CO2 reduction reactions.
Doping these structures enhances their catalytic properties, optimizing their performance in CO2 reduction.
Catalytic performance was evaluated using a systematic approach across various doped nanostructures, focusing on efficiency and stability.
This work highlights the potential for using doped nanostructures in future sustainable energy solutions, particularly for CO2 reduction.
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Mn, Co and Ti doped Nanocages (Mn2–C48, Co2–Si52 and Ti2–B30P30) and Mn, Co and Ti doped C-, Si- and BP-Nanotubes (5, 0), (6, 0) and (7, 0) as effective catalysts for CO2 reduction reaction | Synapse